Mathematics Department – Banmaw University

No	Name	Rank	E-mail
3.	Dr. Myo Pa Pa Htwe	Associate Professor	myopapa@bmwuni.edu.mm
5.	Dr. M Roi Seng	Associate Professor	mroiseng@bmwuni.edu.mm
6.	Dr. Nge Nge Khaing	Associate Professor	ngekhaing@bmwuni.edu.mm
7.	U San Aung	Lecturer	sanaung@bmwuni.edu.mm
14.	Daw Su May Win	Lecturer	sumaywin@bmwuni.edu.mm
15.	Daw Swe Mon Oo	Assistant Lecturer	swemonoo@bmwuni.edu.mm
16.	U Kyaw Htet Lin	Assistant Lecturer	kyawhtetlin@bmwuni.edu.mm
17.	Daw Hnin Yee San	Tutor	hninyeesan@bmwuni.edu.mm

Published Research
Thesis

No	AUTHOR	Research Name	Abstract	Journal Name, Vol.No, Date
1	Dr Khin San Aye	Numerical Approximations of Quantum Drift-Diffusion Model	We consider the Dirichlet boundary value problem for the stationary quantum drift-diffusion model in one space dimension and it is discretized by using the finite difference approximations and the exponentially fitting finite difference approximations to derive nonlinear discrete systems. The nonlinear discrete systems are computed by using the Newton’s iteration and by writing a MATLAB program, to present the numerical simulations for the various parameters.	Yenanchaung Degree College Research Journal, 2010 January, Vol-1, No.1
2	Dr Khin San Aye	Gummel Iterative Scheme for One-Dimensional Quantum Drift-Diffusion Model	The scaling and derivation of Quantum Drift-Diffusion Model is studied. The Gummel iterative scheme for the stationary quantum drift diffusion model in one space dimension is introduced and the convergence of the Gummel iteration is proved.	Monywa University Research Journal, 2017 December, Vol-8, No.1
3	Dr Khin San Aye	Waiting-Line Models	In this paper, we illustrate the basic features of a waiting line model and consider the waiting line situation at the Golden Muffler Shop. We study the part of waiting-line model. Firstly, we study single channel waiting-line and secondly, multiple channel waiting-line with arrivals.	Banmaw University Research Journal, 2019 June, Vol-10, No.1
4	Dr Khin San Aye	Solving Integral Curves and its Applications	In this paper we study methods for finding integral curves and surfaces of vector fields. And then we express the applications to plasma physics and to solenoidal vector fields.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
5	Dr Hnin Oo Lwin	First-Order Richardson Method	In this paper, Euler method generated by an Euler function will be first described by an infinite matrix VE. Then we deduce the recurrence relation for the sequence of numbers and derive the first-order Richardson method using these .	Kengtung University Research Journal, 2009 December, Vol-1, No.1
6	Dr Hnin Oo Lwin	Finding the Eigenvalues and Eigenvectors of Circulant Matrices	In this paper, Toeplitz matrix and circulant matrix are presented. The eigenvalues and eigenvectors of the circulant matrices are found by using the idea of nth roots of unity and the roots of the polynomial. Two examples are illustrated for the circulant matrix of order 3 and the circulant matrix of order 4.	Banmaw University Research Journal, 2019 June, Vol-10, No.1
7	Dr Hnin Oo Lwin	Finding the Smallest Absolute Eigenvalue of the Square Matrix	The aim of this paper is to find the smallest absolute eigenvalue of the square matrix. Firstly LU Factorization and Doolittle Method are presented. Then the smallest absolute eigenvalue of the square matix is found by using the Inverse Power Method. The example is illustrated for square matrix of order 3.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
8	Dr M Roi Seng	A Study Travelling Salesperson Problem	In this paper, we study some basic graph terminology and examples. We then discuss some important concepts in graph theory, including paths and cycles. And also, we study the two classical graph problems which is the existence of Hamilton cycle and the traveling salesperson problem. Now, the purpose of this paper is how to solve the traveling salesperson problem.	Myitkyina University Research Journal, 2014 September, Vol-5, No.1
9	Dr M Roi Seng	The Construction of Operator Spaces	In this paper, we state some basic notions of matrix spaces. And then we introduce the operator spaces. Finally, we describe the constructions of operator spaces.	Myitkyina University Research Journal, 2020 January, Vol-10, No.2
10	Dr M Roi Seng	The Dual of an Operator Spaces	In this paper, we introduce the operator spaces and present some notions of operator spaces. And then, we study the concept of a dual of an operator spaces. Finally, we discuss some fundamental properties of dual operator spaces.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
11	Dr M Roi Seng	Some Applications of Eigenvalues and Eigenvectors	In this paper, firstly the basic concepts of matrices and determinants are introduced. And then, the important facts of the eigenvalues and eigenvectors are presented. Finally, some applications of eigenvalues and eigenvectors are described.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
12	Dr M Roi Seng	Fundamental Theorems for Banach Spaces	Banach space is very interesting area in functional analysis. So, in this paper, we discuss the important fundamental theorems for Banach space, namely, the open mapping theorem, the uniform boundedness principle and the closed graph theorem.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
13	Dr Nge Nge Khaing	Some Problems in Network	In this paper, the network programming and its branches problems, there are minimum-span problem, shortest-route problem and maximal-flow problem. These problems are interested in the sum of the costs of materials used is a minimum. In a shipping schedule that maximizes the amount of material sent between two points.	Myitkyina University Research Jouranl, 2013 July, Vol-4
14	Dr Nge Nge Khaing	The Easier Evaluation of Integrals by Using Green’s Theorem	Double integrals over a plane region may be transformed into line integrals over the boundary of the region and vice versa. This is of practical interest because it may help to make the evaluation of an integral easier. It also helps in the theory whenever one wants to switch from one kind of integral to the other.	Sagaing University Research Jouranl, 2018 December, Vol-5, No-1
15	Dr Nge Nge Khaing	The Asymptotic Behavior of the Burgers’ Solution	At first, a linearized Burgers’ equation is considered. Then the initial value problem for the Burgers’ equation is solved by using Fourier transformation. And then, the asymptotic nature of the Burger’solution is examined.	Research Paper Reading Seminar In Commemoration of The 23rd Anniversary of Monywa University, 2019 October
16	Dr Nge Nge Khaing	Linear Flow of Heat in the Solid Bounded by Two Parallel Planes	Fourier Series is applied to study the linear flow of the heat in solid bounded by two parallel planes by giving different initial temperature. And then it is also solved by giving surface temperature. Finally, the temperature distributions in the slab are illuastrated.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
17	Dr Myo Pa Pa Htwe	Finding a Minimum Average Distance Tree of a Distance-Hereditary Graph	For a graph G with a weight function w on the vertices, the total distance of G and w is where V(G) is the vertex set of G and dG(x,y) is the distance between x and y in G. The average distance of G and w is the total distance divided by , where N is the sum of all weights. A Minimum Average Distance [abbreviated as MAD] tree of G is a spanning tree with minimum average distance. In this paper, we present an algorithm to find a MAD tree of a distance-hereditary graph.	Myitkyina University Research Journal, ,2017 December, Vol-8, No.1
18	Dr Myo Pa Pa Htwe	Some Properties of Line Graphs	Let G be a simple graph. We define that the line graph L(G) of G is a graph whose vertices are edges of G and two vertices of L(G) are adjacent whenever the corresponding edges of G are adjacent. In this paper, we study the structures of L(G) for same classes of graphs such as trees, blocks, and connected graphs.	Banmaw University Research Journal, 2019 June, Vol-10, No.1
19	Dr Myo Pa Pa Htwe	Estimate the Minimize Costs for Packaging and Transportation of Bird Nest	In this paper, corner-point method and big M method are described. Then spanning trees are expressed. Finally, packaging and transportation of bird nest from Myeik are illustrated by using the above concepts.	The 20th Anniversary Conference Proceedings, Dawei University, 2020 February
20	Dr Myo Pa Pa Htwe	Coloring of Planar Graphs	There are many different ways to colors a graph, each with different applications. In this paper, we discuss vertex coloring, and find the least number of colors needed for a coloring of the given graph.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
21	Dr Kyaw San Lin	Iterative Method for Solving Linear Systems	We describe two iterative methods for approximating the solution of a system of n linear equations in n variables.	Yenanchaung Degree College Research Journal, 2014 September, Vol-5, No.1
22	Dr Kyaw San Lin	Application of Minimal Spanning Tree	In this paper, we introduce the basic definitions, notations and examples of graph. Then we discuss the concepts of tree, spanning tree and minimal spanning tree. We use the Prim’s algorithm to build the cost-effective road system that connects all cities of the given weighted graph.	Myingyan Degree College Research Journal, 2015 December, Vol-6, No.1
23	Dr Kyaw San Lin	Some Applications of Markov Chain on Forecasting the Weather	In this paper, some basic definitions and concepts of probability are introduced. Then examples and problems concerned with one-step and n-step transition probability are discussed. Finally, theorem and problems related to limiting probability are presented.	Banmaw University Research Journal, 2019 June, Vol-10, No.2
24	Dr Kyaw San Lin	Application of Number Theory in Cryptography	In this paper, some basic definitions, notations and concepts of number theory are expressed. Then, congruent modulo relation, equivalence class and the set of equivalence classes Zn for integer n are defined and the relation between existence of multiplicative inverse of element in Zn and being relatively prime with n is discussed. Moreover some definitions and terminologies concerned with cryptology are stated. Finally encryption and decryption of messages are illustrated with examples.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
25	Daw Khin Aye Win	Numerical Approximations for Definite Integral	The aim of this paper is the process of finding or evaluating the values of the definite integral from a set of numerical values of the integrand. Four kinds of approximate quadrature formulae are studied. The Trapezoidal rule, Simpson’s One-third rule, Simpson’s Three-eighth rule and Weddle’s rule are expressed. Finally the approximate values of some problems are obtained by using these formulae.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
26	Daw Ohnmar	Numerical Approximations for Definite Integral	The aim of this paper is the process of finding or evaluating the values of the definite integral from a set of numerical values of the integrand. Four kinds of approximate quadrature formulae are studied. The Trapezoidal rule, Simpson’s One-third rule, Simpson’s Three-eighth rule and Weddle’s rule are expressed. Finally the approximate values of some problems are obtained by using these formulae.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
27	Daw Khon Mai	Some Applications from Complex Numbers	In this paper, a complex number is presented in cartesian form. And then, this complex number is also represented by the polar form. Moreover, the complex numbers are discussed by the fundamental law such as addition, subtraction, multiplication and division. Finally, the applications of complex numbers are discussed.	Myitkyina University Research Journal, 2020 January, Vol-10, No.2
28	Daw Khon Mai	Some Applications of Eigenvalues and Eigenvectors	In this paper, firstly the basic concepts of matrices and determinants are introduced. And then, the important facts of the eigenvalues and eigenvectors are presented. Finally, some applications of eigenvalues and eigenvectors are described.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
29	Daw Khon Mai	The Dual of an Operator Spaces	In this paper, we introduce the operator spaces and present some notions of operator spaces. And then, we study the concept of a dual of an operator spaces. Finally, we discuss some fundamental properties of dual operator spaces.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
30	Dr Nu Wai Lwin Tun	Duality Theory in Multiobjective Optmization	In this paper, we study different vector-valued Lagrangian functions and we develop a duality theory based upon these functions for nonlinear multiobjective optimization problems. The saddle-point theorem and the duality theorem are derived for these problems under appropriate convexity assumptions. A duality theory obtained by using the concept of vector-valued conjugate functions.	Sagaing University of Education Research Journal, 2018 October, Vol-9, No.1
31	Dr Nu Wai Lwin Tun	Introduction to Optimization and Some Applications	In this paper, the linear optimization problem is introduced and its applications in economic problems are illustrated with some examples by using the graphical method and second derivative test. In addition, the concepts of vector optimization such as minimality notions based on partial orderings introduced by convex cones are described. Finally, the comparison of the sets of all minimal solutions of multiobjective optimization problem with respect to the cone and also the image sets of the set of minimal solutions is proved.	Mandalay University Research Journal, 2018 December, Vol-9, No.2
32	Dr Nu Wai Lwin Tun	Properties of the Pascoletti-Serafini Scalarization	In this paper, Pascoletti-Serafini scalarization of the multiobjective optimization problems(MOP) is discussed. Then, the properties of the Pascoletti-Serafini scalarization are investigated.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
33	Dr Moe Sandar	Schauder Bases and Duality	This paper is mainly concerned with the problem of existence of a topological basis, the so-called Schauder basis in a Banach space and the problem of characterization of Banach spaces having Schauder bases.	Maubin University Research Journal, 2014 December, Vol-6
34	Dr Moe Sandar	The Unconditional Constants For Hilbert Space Frame Expansions	This paper is concerned with basis and basis like system in Hilbert space called frames and also includes some fundamental notions in frame theory.	Journal of the Myanmar Academy of Arts and Science, 2017 June, Vol-XV, No.3
35	Dr Moe Sandar	Characterization of Atomic Decompositions, Banach Frames and Xd-frames in Banach Spaces	This paper is mainly concerned with the atomic decompositions, Banach frames and Xd-frames.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
36	Daw San Thet Nwe	Application of Staistical Method	In this paper, we discuss about statistical method which is used to find the number of students in entrance of Myingyan Degree College for the next academic years.	Myingyan Degree College Research Journal, 2014 September, Vol-5, No.1
37	Daw San Thet Nwe	Fundamentals of Incompressible Ideal Flow	In this paper, streamlines and potential lines for uniform flow, source flow, doublet flow and vortex flow in two-dimensional flow are presented. And then nonlifting flow over a circular cylinder by adding uniform flow and doublet flow, lifting flow over a circular cylinder by adding nonlifting flow and vortex flow are discussed.	Myingyan Degree College Research Journal, 2019 August, Vol-10, No.1
38	Daw San Thet Nwe	Exact Solutions of Nonlinear Dispersive Equations for a Traveling long Wave	In this paper, the derivation of nonlinear transformation is formulated for the system of nonlinear partial differential equations of dispersive traveling long wave in 1+1 dimension by using the homogeneous balance method. It is presented that this transformation is applied to construct the exact solutions of nonlinear dispersive equations for a traveling long wave.	Myingyan Degree College Research Journal, 2019 August, Vol-10, No.1
39	Daw San Thet Nwe	Solution of the Dispersive Long Wave Equation in (2+1) Dimensions	In this paper, the solitary wave solutions of the approximate equations for dispersive long wave equation (DLWE) in (2+1) dimensions are constructed and nonlinear transformation is also derived by using the homogeneous balance method. With the aid of that transformation, the exact solutions are obtained. The solutions of two-dimensional KdV equation or Kadomtsev-Petviashvili equation are obtained.	Myingyan Degree College Research Journal, 2020 May, Vol-11, No.1
40	Daw Su May Win	Numerical Techniques for Unconstrained Optimization	In this paper, the optimization problem in standard form is introduced. The real problem is transformed to the mathematical model. Then, the constraint problem and unconstraint problem are illustrated. Especially, the unconstraint problems are solved.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
41	Daw Swe Mon Oo	Application of Euler Cycle	In this paper, some definitions of graph theory are presented. And then definitions, examples and theorems related to Euler cycle are discussed. Finally, postman problem for weighted graph is solved by using the algorithm.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
42	Daw Swe Mon Oo	Fundamental Theorems for Banach Spaces	Banach space is very interesting area in functional analysis. So, in this paper, we discuss the important fundamental theorems for Banach space, namely, the open mapping theorem, the uniform boundedness principle and the closed graph theorem.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
43	Daw Swe Mon Oo	Applications of Vertex Coloring	In this paper, some definitions and concepts of graph theory are presented. And then definitions, examples and theorems concerned with vertex coloring are stated. Finally, some applications of vertex coloring are discussed with illustrative examples.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
44	U Kyaw Htet Lin	The Dual of an Operator Spaces	In this paper, we introduce the operator spaces and present some notions of operator spaces. And then, we study the concept of a dual of an operator spaces. Finally, we discuss some fundamental properties of dual operator spaces.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
45	U Kyaw Htet Lin	Some Applications of Eigenvalues and Eigenvectors	In this paper, firstly the basic concepts of matrices and determinants are introduced. And then, the important facts of the eigenvalues and eigenvectors are presented. Finally, some applications of eigenvalues and eigenvectors are described.	Banmaw University Research Journal, 2020 June, Vol-11, No.1
46	Daw Hnin Yee San	Applications of Vertex Coloring	In this paper, some definitions and concepts of graph theory are presented. And then definitions, examples and theorems concerned with vertex coloring are stated. Finally, some applications of vertex coloring are discussed with illustrative examples.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
47	Daw Hnin Yee San	Application of Euler Cycle	In this paper, some definitions of graph theory are presented. And then definitions, examples and theorems related to Euler cycle are discussed. Finally, postman problem for weighted graph is solved by using the algorithm.	Banmaw University Research Journal, 2020 June, Vol-11, No.2
48	Daw Hnin Yee San	Fundamental Theorems for Banach Spaces	Banach space is very interesting area in functional analysis. So, in this paper, we discuss the important fundamental theorems for Banach space, namely, the open mapping theorem, the uniform boundedness principle and the closed graph theorem.	Banmaw University Research Journal, 2020 June, Vol-11, No.2

No.	Candidate	Thesis Title	Supervisor	Year
1.	Ma Nway Nway Htwe	Numerical Method for Elliptic Boundary Value Problems	Dr. Khin San Aye Professor	2011
2.	Ma Nu Nu Nge	Applications of Fourier Series for Initial Boundary Value Problem	Dr. Khin San Aye Professor	2014
3.	Ma Than Than Swe	Some Theorems on Normed Linear Spaces and Their Consequences	Dr. Khin San Aye Professor	2016
4.	Ma Lin Lin Aye	Numerical Methods for Non-Linear Equations	Dr. Khin San Aye Professor	2011
5.	Ma Hnin Nwe Win	Some Numerical Methods and Approximation Methods	Dr. Khin San Aye Professor	2012
6.	Ma Khaing Yin Win	Rectangular Nets and Finite Difference Methods for Second-Order Hyperbolic Equations	Dr. Khin San Aye Professor	2012
7.	Ma May Zin Myint	Numerical Methods for Initial-Value Problem	Dr. Khin San Aye Professor	2012
8.	Mg Moe Myint	Finite Difference Methods for Elliptic Equations	Dr. Khin San Aye Professor	2012
9.	Ma Ohmar Myint	First Order Non-Linear Equations and Their Applications	Dr. Khin San Aye Professor	2013
10.	Ma Khin Su Mon	Fourier Transforms and Laplace Transforms for Initial-Value Problem	Dr. Khin San Aye Professor	2013
11.	Ma Su Su Aung Ma Myat Tint Mon	Direct Method and Iteriative Methods for Solving Systems of Linear Equations	Dr. Khin San Aye Professor	2013
12.	Mg Ko Ko Naing	Analysis for Polynomial Interpolation	Dr. Khin San Aye Professor	2014
13.	Ma San San Win	Numerical Methods for Initial Boundary Value Problems	Dr. Khin San Aye Professor	2015
14.	Ma Zin Mar	Numerical Methods for Parabolic Equations	Dr. Khin San Aye Professor	2015
15.	Ma Kay Zin Khaing	Explicit and Implicit Methods for some Ordinary Differential Equations	Dr. Khin San Aye Professor	2015
16.	Ma Win Win Maw	Approximation of Initial Value Problem by using One-Step Method	Dr. Khin San Aye Professor	2016
17.	Ma Kyi Su Han	Some Numerical Method for Solutions of the Non-Linear Equation	Dr. Khin San Aye Professor	2016
18.	Ma Kyi Su Han	Solving the Heat Equation using Fourier Transforms	Dr. Khin San Aye Professor	2017
19.	Ma Nan Thuzar Khaing	Solving the Wave Equation using Laplace Transforms	Dr. Khin San Aye Professor	2017
20.	Ma Lu Aung San	The Method of Characteristics for Linear and Quasilinear Wave Equations	Dr. Khin San Aye Professor	2020
21.	Ma Tin Zar Lin	Iterative Methods for Non-Linear Equations	Dr. Khin San Aye Professor	2020
22.	Ma Pwint Wai Soe 2 Maha-Stat-13	Convergence and Perturbation Theorems for Matrix Inverses	Dr. Hnin Oo Lwin Professor	2011
23.	Ma San Wai Wai Htwe 2 Maha-Stat-10	Iterative Methods for Systems of Linear Algebraic Equations	Dr. Hnin Oo Lwin Professor	2011
24.	Ma Hay Thi Htwe 2 Maha-Math-39	Polynomial Equations and Circulant Matrices	Dr. Hnin Oo Lwin Professor	2012
25.	Ma Aye Mya Mon 2 Maha-Stat-31	Pseudo-Inverse and Orthogonal Projections	Dr. Hnin Oo Lwin Professor	2012
26.	Ma Moe Sandar Wai 2 Maha-Stat-14	Newton's Method for Solving System of Nonlinear Equations	Dr. Hnin Oo Lwin Professor	2012
27.	Mg Ye Mon Myint 2 Maha-Stat-3	Interpolation Theory Using Finite Differences	Dr. Hnin Oo Lwin Professor	2013
28.	Mg Naing Soe Min 2 Maha-Stat-21	Polynomial Approximation and Interpolation	Dr. Hnin Oo Lwin Professor	2013
29.	Ma San Thiri Phyo MRes-Math-5	Orthogonality of Chebyshev Polynomials	Dr. Hnin Oo Lwin Professor	2013
30.	Ma Sint MRes-Math-11	Polynomial Approximation by Least Squares	Dr. Hnin Oo Lwin Professor	2013
31.	Ma Ei Phyu Phyu Hnin 2 Maha-Stat-4	Matrices with Repeated Eigenvalues	Dr. Hnin Oo Lwin Professor	2014
32.	Ma Mo Mo Cho 2 Maha-Stat-13	Error Analysis of Gaussian Elimination	Dr. Hnin Oo Lwin Professor	2014
33.	Ma Khin Moe Yi MRes-Math-2	Matrices and Spectral Theorems	Dr. Hnin Oo Lwin Professor	2014
34.	Ma Su Myat Phyo 2 MSc-Math-1	Matrix Eigenvalue Problem	Dr. Hnin Oo Lwin Professor	2016
35.	Ma Phyo Phyo Aye 2 MSc-Math-13	Numerical Solutions of the Elliptic Partial Differential Equations	Dr. Hnin Oo Lwin Professor	2016
36.	Ma Ei Mon San 2 MSc-Math-19	Numerical Solutions of the Parabolic Partial Differential Equations	Dr. Hnin Oo Lwin Professor	2016
37.	Ma Su Myat Phyo MRes-Math-9	Iterative Methods for Eigenvalues and Eigenvectors	Dr. Hnin Oo Lwin Professor	2017
38.	Ma Phue Ei Ngon 2 MSc-Math-4	Finite Elements and Shape Functions	Dr. Hnin Oo Lwin Professor	2017
39.	Ma Shwe Zin Thet 2 MSc-Math-5	Finite Differences and Interpolation Formulae	Dr. Hnin Oo Lwin Professor	2017
40.	Mg Aung Ko Ko Shine 2 MSc-Math-15	Some Standard Methods for First-Order Differential Equations	Dr. Hnin Oo Lwin Professor	2017
41.	Mg Myo Min Tun 2 MSc-Math-38	Interpolating Polynomials	Dr. Hnin Oo Lwin Professor	2017
42.	Ma Khaing Thuzar MRes-Math-4	Matrix Representations of a linear Transformation	Dr. Hnin Oo Lwin Professor	2018
43.	Mg Aung Ko Ko Shine MRes-Math-6	Solving The Systems of Ordinary Differential Equations by Using Numerical Methods	Dr. Hnin Oo Lwin Professor	2018
44.	Mg Hkun Pha Pan 2 MSc-Math-1	Linear and Nonlinear Least Squares Fitting to Data	Dr. Hnin Oo Lwin Professor	2020
45.	Ma Zun Htet Htet Nway 2 MSc-Math-8	Power Method and Several of Its Variations	Dr. Hnin Oo Lwin Professor	2020
46.	Ma Nwe Ni Myint 3 PhD(Res) Math-8	Numerical Solutions of the Fractional Differential Equations	Dr. Hnin Oo Lwin Professor	2020
47.	Ma Su Myat Naing	A Study on Matchings in Graphs	Dr Myo Pa Pa Htwe Associate Professor	2016
48.	Mg Pai Nway Oo	Euler Tours in Directed Graph	Dr Myo Pa Pa Htwe Associate Professor	2018
49.	Ma Myat Theingi	The Block-Cutpoint tree of a Graph	Dr Myo Pa Pa Htwe Associate Professor	2011
50.	Ma Thidar Htun	Block-Point Trees and Subdivision Graphs	Dr Myo Pa Pa Htwe Associate Professor	2014
51.	Ma Thu Zar Htet	Spanning Trees in Directed and Undirected Graphs	Dr Myo Pa Pa Htwe Associate Professor	2014
52.	Ma Pu Nam	Graph Representation and Graph Isomorphism	Dr Myo Pa Pa Htwe Associate Professor	2016
53.	Ma Mo Mo Ko	Some Types of Trees and Its Applications	Dr Myo Pa Pa Htwe Associate Professor	2016
54.	Ma Pai Nway Oo	Euler Tours and Its Applications	Dr Myo Pa Pa Htwe Associate Professor	2017
55.	Mg Seng Ja Aung	Planarity of Graphs	Dr Myo Pa Pa Htwe Associate Professor	2017
56.	Ma Ja Brim	Some Directed Graphs and Its Applications	Dr Myo Pa Pa Htwe Associate Professor	2018
57.	Ma Maran Doi Ra	Classes of Rooted Trees with Applications	Dr Myo Pa Pa Htwe Associate Professor	2018
58.	Ma May Zin Hlaing	Characterization of Coloring on Some Graphs	Dr Myo Pa Pa Htwe Associate Professor	2019
59.	Ma Saung Kalyar	Relations Between Trees and Bipartite Graphs	Dr Myo Pa Pa Htwe Associate Professor	2019
60.	Ma Win Win Khin	Paths and Circuits in Some Graphs	Dr Myo Pa Pa Htwe Associate Professor	2020
61.	Ma Khin Thwe Win	Hypercube Graphs and Its Properties	Dr Myo Pa Pa Htwe Associate Professor	2020
62.	Ma Hmwe Lin	Eulerian Graph and Its Applications	Dr Kyaw San Lin Associate Professor	2019
63.	Ma Ei Phyu	Relationships between Maximal and Prime Ideal	Dr Kyaw San Lin Associate Professor	2019
64.	Mg Phyo Wai Linn	Finding Spanning Trees in Connected Graph	Dr Kyaw San Lin Associate Professor	2020
65.	Ma Zar Chi Oo	Maximum Flow and Minimum Cut in Networks	Dr Kyaw San Lin Associate Professor	2020
66.	Ma Khin Than Aye	Some Application of quotient Topological Spaces	Dr M Roi Seng Associate Professor	2011
67.	Ma Moe Thuzar	An Introduction to Spectral Theory	Dr M Roi Seng Associate Professor	2013
68.	Mg Khaw Duq Lone Mawq	An Introduction to Barrelled Spaces	Dr M Roi Seng Associate Professor	2014
69.	Ma Ya Ku	The Hilbert Spaces and Spectral Theory	Dr M Roi Seng Associate Professor	2014
70.	Ma Khaing Zin May	The Elements of Functional Analysis in Banach Spaces	Dr M Roi Seng Associate Professor	2014
71.	Ma Roi Nu San	A Study of Linear Operators on Banach Spaces	Dr M Roi Seng Associate Professor	2015
72.	Mg Wa Baw Zaung Hkaung Naw	A Study of Linear Operators on Hilbert Spaces	Dr M Roi Seng Associate Professor	2015
73.	Mg S Bawm Yaw	The Duality in Barach Spaces	Dr M Roi Seng Associate Professor	2016
74.	Ma Aye Khaing Myint	The Bounded Operators on Hilbert Spaces	Dr M Roi Seng Associate Professor	2016
75.	Ma Khaw Duq Lone Mawq	A Study of Barralled Spaces	Dr M Roi Seng Associate Professor	2015
76.	Ma Wa Baw Zaung Hkaung Naw	A Study on Banach Algebra	Dr M Roi Seng Associate Professor	2016
77.	Mg Roi Aung	The Quotient Topology	Dr M Roi Seng Associate Professor	2017
78.	Ma Hmwe Yone	Some Properties of Harsdaff Spaces	Dr M Roi Seng Associate Professor	2018
79.	Ma Lar Myar Mee	Some Properties of Tychonoff Spaces	Dr M Roi Seng Associate Professor	2018
80.	Mg Seng Ra	The Continuity of Topological Vector Spaces	Dr M Roi Seng Associate Professor	2020
81.	Mg Aung Myo Oo	The Completeness of Topological Spaces	Dr M Roi Seng Associate Professor	2020
82.	Ma Nwe Nwe Lin	Dual Spaces and Its Applications	Dr M Roi Seng Associate Professor	2020
83.	Ma Khin Mar Wai	Characterizations of Order Statistics	Dr Nge Nge Khaing Associate Professor	2015
84.	Ma May Thet Zun	The Similarity Solution of Linear and Nonlinear Diffusion Equations	Dr Nge Nge Khaing Associate Professor	2016
85.	Ma Aye Aye Aung	Homogeneous and Nonhomogeneous Problem for Wave Equation	Dr Nge Nge Khaing Associate Professor	2010
86.	Ma Zu Zu Win Sandar	Positive Definite Matrices and Their Properties	Dr Nge Nge Khaing Associate Professor	2011
87.	Ma Thin Thin Soe	Numerical Solutions of Heat Equations	Dr Nge Nge Khaing Associate Professor	2012
88.	Ma Htar Mar Nar	Two Dimensional Steady Flow Between Parallel and Non-Parallel Plane Walls	Dr Nge Nge Khaing Associate Professor	2014
89.	Mg Ko Ko Than	Images System and Conformal Transformation	Dr Nge Nge Khaing Associate Professor	2014
90.	Mg Ye Naing Lin	Maximum and Minimum Flow in Network	Dr Nge Nge Khaing Associate Professor	2014
91.	Ma Htay Htay Myint	A Study on Well-Ordered Sets	Dr Nge Nge Khaing Associate Professor	2015
92.	Ma May Thet Zun	Images System and Conformal Transformation	Dr Nge Nge Khaing Associate Professor	2015
93.	Ma Zin Mar Nwe	Order Relation in a Set	Dr Nge Nge Khaing Associate Professor	2015
94.	Ma Nan Khin Hmwe	Two-dimensional Steady Flow Between Parallel and Non-Parallel Plane Walls	Dr Nge Nge Khaing Associate Professor	2015
95.	Ma Hlaing Su Wai	Laminar Flow of Viscous Imcompressible Fluids	Dr Nge Nge Khaing Associate Professor	2019
96.	Ma Aye Myat Thu	Boundary Value Problem for Laplace Equation	Dr Nge Nge Khaing Associate Professor	2020
97.	Ma Naw Myat Kyu Thin	Solving Boundary Values Problems by Using Separation of Variables	Dr Nge Nge Khaing Associate Professor	2020
98.	Mg Thoun Thoun Soe Lin	Some Applications of Tree	U San Aung Lecturer	2020
99.	Ma Yin Yin Tun	Schauder Bases in Normed Spaces	Dr Moe Sandar Lecturer	2020
100.	Ma Win Win Khin	Motion of Elliptic Cylinder in the Fluid	Dr Nu Wai Lwin Tun Lecturer	2017
101.	Mg Moe Htet Htet Myint	Compactness in Some Spaces	Dr Nu Wai Lwin Tun Lecturer	2018
102.	Ma Thaw Tar Win	Linear Operators on Finite Dimensional Spaces	Dr Nu Wai Lwin Tun Lecturer	2019
103.	Ma Thin Lae Lae Naing	Convex Function on Subset of Real Vector Space	Dr Nu Wai Lwin Tun Lecturer	2020
104.	Ma Sut Nu Aung	Numerical Approximation for Definite Integral	Daw Ohmar Lecturer	2020
105.	Ma Zar Chi Oo	Interpolation with Unequal Intervals of the Argument	Daw Khin Aye Win Lecturer	2020
106.	Ma Nan Hnin Hnin Oo	Some Methods for the Numerical Solution of Ordinary Differential Equations	Daw Khin Aye Win Lecturer	2020
107.	Ma Nang Tsin Pan	Some Special Kinds of Rings	Daw Khon Mai Lecturer	2017
108.	Ma Shan Aye	Some Propertities of Polynomial Rings	Daw Khon Mai Lecturer	2020
109.	Mg Micheal San Aung	Some Applications of Eigen Values and Eigen Vectors	Daw Khon Mai Lecturer	2020
110.	Ma Pa Pa	Linear Transformation on Vector Spaces	Daw Su May Win Lecturer	2016
111.	Ma Yu Maw Lwin	Imbedding of Rings	Daw Su May Win Lecturer	2016
112.	Ma Mi Mi Myint Maung	The Study of Ideals	Daw Su May Win Lecturer	2016

1. Classical Literature
2. Modern Literature
3. Literary Theory and Criticism
4. Linguistics
5. Ancient Language
6. Indigenous Languages

Year	Total
First	109
Second	92
Third	41
Fourth	49
First Year Hons:	23
Second Year Hons:	13
Third Year Hons:	24
Qualify	3
MI	3
MII	21
Total	378

Year	Total
First	35
Second	29
Third	24
Fourth	7
Total	95

Curriculum and Time Table

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	မ 1001	မြန်မာစာ	3	2	2
2.	Eng 1001	English	3	2	2
3.	Math 1101	Algebra and Analytic Geometry	4	3	2
4.	Math 1102	Trigonometry and Differential Calculus	4	3	2
5.	Elective	*	3	2	2
	AM- 1001	Aspects of Myanmar	3	2	2
		Total	20	14	12

Time/ Date	9:00-10:00	10:00-11:00	11:00-12:00	1:00-2:00	2:00-3:00
MONDAY	AM- 1001	Myan- 1001	Phys- 1001		Math- 1101 (Tutorial)
TUESDAY	AM- 1001	Myan- 1001	Phys- 1001	Math- 1101	AM- 1001 (Tutorial)
WEDNESDAY	Eng-1001	Math-1102	Math- 1101		Myan- 1001 (Tutorial)
THURSDAY	Eng-1001	Math-1102	Math- 1101	Math- 1102 (Tutorial)
FRIDAY	Eng-1001(Tutorial)		Math- 1102	Phys- 1001 (Practical)

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	မ 1002	မြန်မာစာ	3	2	2
2.	Eng 1002	English	3	2	2
3.	Math 1103	Algebra and Analytical Solid Geometry	4	3	2
4.	Math 1104	Differential and Integral Calculus	4	3	2
5.	Elective	*	3	2	2
	AM- 1001	Aspects of Myanmar	3	2	2
		Total	20	14	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 2001	English	3	2	2
2.	Math 2101	Complex Variables I	4	3	2
3.	Math 2102	Calculus of Several Variables	4	3	2
4.	Math 2103	Vector Algebra and Statics	4	3	2
5.	Elective (1)	*	3	2	2
	Elective (2)	*	3	2	2
		Total	21	15	12

Time/ Date	9:00-10:00	10:00-11:00	11:00-12:00	1:00-2:00	2:00-3:00
MONDAY	Math- 2105	Eng- 2001	Math- 2103	Math- 2102	Math- 2101 (Tutorial)
TUESDAY	Math- 2102	Eng- 2001	Math- 2104	Math- 2101	Math- 2103 (Tutorial)
WEDNESDAY	Math- 2102	Math- 2101	Math- 2101	Math- 2104	Math- 2102 (Tutorial)
THURSDAY	Math- 2103	Math-1105	Math- 2104		Eng- 2001 (Tutorial)
FRIDAY	Math- 2103	Math- 2104 (Tutorial)	Math- 2104		Math- 2105 (Tutorial)

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 2002	English	3	2	2
2.	Math 2107	Linear Algebra I	4	3	2
3.	Math 2108	Ordinary Differential Equations	4	3	2
4.	Math 2109	Vector Calculus and Dynamics	4	3	2
5.	Elective (1)	*	3	2	2
	Elective (2)	*	3	2	2
		Total	21	15	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 3001	English	3	2	2
2.	Math 3101	Analysis I	4	3	2
3.	Math 3102	Linear Algebra II	4	3	2
4.	Math 3103	Differential Equations	4	3	2
5.	Math 3104	Differential Geometry	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

Time/ Date	9:00-10:00	10:00-11:00	11:00-12:00	1:00-2:00	2:00-3:00
MONDAY	Math- 3103	Math- 3103	Math- 3104	Math- 3102	Math- 3101 (Tutorial)
TUESDAY	Math- 3104	Math- 3104		Math- 3105	Math- 3104 (Tutorial)
WEDNESDAY	Math- 3103	Math- 3102	Eng- 3001	Math- 3101	Math- 3103 (Tutorial)
THURSDAY	Math- 3101	Math- 3101	Eng- 3001	Math- 3102	Math- 3105 (Tutorial)
FRIDAY	Math- 3105	Math- 3102 (Tutorial)	Eng- 3001		Eng- 3001 (Tutorial)

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 3002	English	3	2	2
2.	Math 3107	Analysis II	4	3	2
3.	Math 3108	Linear Algebra III	4	3	2
4.	Math 3109	Mechanics	4	3	2
5.	Math 3110	Probability and Statistics	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 4001	English	3	2	2
2.	Math 4101	Analysis III	4	3	2
3.	Math 4102	Numerical Analysis I	4	3	2
4.	Math 4103	Linear Programming	4	3	2
5.	Math 4104	Partial Differential Equations	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

Sample Description

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 4002	English	3	2	2
2.	Math 4107	Analysis IV	4	3	2
3.	Math 4108	General Topology I	4	3	2
4.	Math 4109	Abstract Algebra I	4	3	2
5.	Math 4110	Hydromechanics	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 3001	English	3	2	2
2.	Math 3201	Analysis I	4	3	2
3.	Math 3202	Linear Algebra II	4	3	2
4.	Math 3203	Differential Equations	4	3	2
5.	Math 3204	Differential Geometry	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

Time/ Date	9:00-10:00	10:00-11:00	11:00-12:00	1:00-2:00	2:00-3:00
MONDAY	Math- 3203	Math- 3203	Math- 3204	Math- 3202	Math- 3201 (Tutorial)
TUESDAY	Math- 3204	Math- 3204		Math- 3205	Math- 3204 (Tutorial)
WEDNESDAY	Math- 3203	Math- 3202	Eng- 3001	Math- 3201	Math- 3203 (Tutorial)
THURSDAY	Math- 3201	Math- 3201	Eng- 3001	Math- 3202	Math- 3205 (Tutorial)
FRIDAY	Math- 3205	Math- 3202 (Tutorial)	Eng- 3001		Eng- 3001 (Tutorial)

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 3002	English	3	2	2
2.	Math 3207	Analysis II	4	3	2
3.	Math 3208	Linear Algebra III	4	3	2
4.	Math 3209	Mechanics	4	3	2
5.	Math 3210	Probability and Statistics	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 4001	English	3	2	2
2.	Math 4201	Analysis III	4	3	2
3.	Math 4202	Numerical Analysis I	4	3	2
4.	Math 4203	Linear Programming	4	3	2
5.	Math 4204	Partial Differential Equations	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

Sample Description

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Eng 4002	English	3	2	2
2.	Math 4207	Analysis II	4	3	2
3.	Math 4208	Linear Algebra III	4	3	2
4.	Math 4209	Mechanics	4	3	2
5.	Math 4210	Probability and Statistics	4	3	2
	Elective (1)	*	3	2	2
		Total	22	16	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 5201	Analysis V	4	3	2
2.	Math 5202	General Topology II	4	3	2
3.	Math 5203	Abstract Algebra II	4	3	2
4.	Math 5204	Hydrodynamics I	4	3	2
5.	Math 5205	Numerical Analysis II	4	3	2
	Math 5206	Qualitative Theory of Ordinary Differential Equations I	4	3	2
		Total	24	18	12

Sample Description

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 5207	Analysis VI	4	3	2
2.	Math 5208	General Topology III	4	3	2
3.	Math 5209	Abstract Algebra III	4	3	2
4.	Math 5210	Hydrodynamics II	4	3	2
5.	Math 5211	Graph Theory	4	3	2
	Math 5212	Qualitative Theory of Ordinary Differential Equations II	4	3	2
		Total	24	18	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 5201	Analysis V	4	3	2
2.	Math 5202	General Topology II	4	3	2
3.	Math 5203	Abstract Algebra II	4	3	2
4.	Math 5204	Hydrodynamics I	4	3	2
5.	Math 5205	Numerical Analysis II	4	3	2
	Math 5206	Qualitative Theory of Ordinary Differential Equations I	4	3	2
		Total	24	18	12

Sample Description

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 5207	Analysis VI	4	3	2
2.	Math 5208	General Topology III	4	3	2
3.	Math 5209	Abstract Algebra III	4	3	2
4.	Math 5210	Hydrodynamics II	4	3	2
5.	Math 5211	Graph Theory	4	3	2
	Math 5212	Qualitative Theory of Ordinary Differential Equations II	4	3	2
		Total	24	18	12

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 611	Analysis I	4	4	2
2.	Math 612	Abstract Algebra	4	4	2
3.	Math 613	(a) Qualitative Theory of Ordinary Differential Equations (OR) (b) Dynamical Systems	4	4	2
4.	Math 614 (OR) Math 615 (OR) Math 616 (OR) Math 617	Discrete Mathematics (OR) Numerical Analysis I (OR) Solution of Linear Systems of Equations (OR) Physical Applied Mathematics I (OR) Stochastic Process I	4	4	2
		Total	16	16	8

Sample Description

No.	Module No	Name of Module	Credit Points	Hours per week
				Lecture	Tutorial
1.	Math 621	Analysis II	4	4	2
2.	Math 622	Linear Algebra	4	4	2
3.	Math 623	(a) Partial Differential Equations (OR) (b) Differential Geometry	4	4	2
4.	Math 624 (OR) Math 625 (OR) Math 626 (OR) Math 627	Graph Theory (OR) Numerical Analysis II (OR) Physical Applied Mathematics II (OR) Stochastic Process II	4	4	2
		Total	16	16	8

Sample Description

Banmaw University

Ministry of Education